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339 lines
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Markdown
339 lines
14 KiB
Markdown
---
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lang: en
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layout: doc
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permalink: /doc/qrexec2/
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redirect_from:
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- /doc/qrexec2-implementation/
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- /en/doc/qrexec2-implementation/
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- /doc/Qrexec2Implementation/
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- /wiki/Qrexec2Implementation/
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ref: 38
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title: Qrexec v2 (deprecated)
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---
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(*This page is about qrexec v2. For qrexec v3, see [here](/doc/qrexec/).*)
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Qubes **qrexec** is a framework for implementing inter-VM (incl. Dom0-VM)
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services. It offers a mechanism to start programs in VMs, redirect their
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stdin/stdout, and a policy framework to control this all.
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## Qrexec basics ##
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During each domain creation a process named `qrexec-daemon` is started in
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dom0, and a process named `qrexec-agent` is started in the VM. They are
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connected over `vchan` channel.
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Typically, the first thing that a `qrexec-client` instance does is to send
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a request to `qrexec-agent` to start a process in the VM. From then on,
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the stdin/stdout/stderr from this remote process will be passed to the
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`qrexec-client` process.
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E.g., to start a primitive shell in a VM type the following in Dom0 console:
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```shell_session
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[user@dom0 ~]$ /usr/lib/qubes/qrexec-client -d <vm name> user:bash
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```
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The string before first semicolon specifies what user to run the command as.
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Adding `-e` on the `qrexec-client` command line results in mere command
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execution (no data passing), and `qrexec-client` exits immediately after
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sending the execution request.
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There is also the `-l <local program>` flag, which directs `qrexec-client`
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to pass stdin/stdout of the remote program not to its stdin/stdout, but to
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the (spawned for this purpose) `<local program>`.
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The `qvm-run` command is heavily based on `qrexec-client`. It also takes care
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of additional activities (e.g., starting the domain, if it is not up yet, and
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starting the GUI daemon). Thus, it is usually more convenient to use `qvm-run`.
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There can be almost arbitrary number of `qrexec-client` processes for a domain
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(i.e., `qrexec-client` processes connected to the same `qrexec-daemon`);
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their data is multiplexed independently.
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There is a similar command line utility available inside Linux AppVMs (note
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the `-vm` suffix): `qrexec-client-vm` that will be described in subsequent
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sections.
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## Qubes RPC services ##
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Apart from simple Dom0-\>VM command executions, as discussed above, it is
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also useful to have more advanced infrastructure for controlled inter-VM
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RPC/services. This might be used for simple things like inter-VM file
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copy operations, as well as more complex tasks like starting a DispVM,
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and requesting it to do certain operations on a handed file(s).
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Instead of implementing complex RPC-like mechanisms for inter-VM communication,
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Qubes takes a much simpler and pragmatic approach and aims to only provide
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simple *pipes* between the VMs, plus ability to request *pre-defined* programs
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(servers) to be started on the other end of such pipes, and a centralized
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policy (enforced by the `qrexec-policy` process running in dom0) which says
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which VMs can request what services from what VMs.
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Thanks to the framework and automatic stdin/stdout redirection, RPC programs
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are very simple; both the client and server just use their stdin/stdout to pass
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data. The framework does all the inner work to connect these file descriptors
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to each other via `qrexec-daemon` and `qrexec-agent`. Additionally, DispVMs
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are tightly integrated; RPC to a DispVM is a simple matter of using a magic
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`$dispvm` keyword as the target VM name.
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All services in Qubes are identified by a single string, which by convention
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takes a form of `qubes.ServiceName`. Each VM can provide handlers for each of
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the known services by providing a file in `/etc/qubes-rpc/` directory with
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the same name as the service it is supposed to handle. This file will then
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be executed by the qrexec service, if the dom0 policy allowed the service to
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be requested (see below). Typically, the files in `/etc/qubes-rpc/` contain
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just one line, which is a path to the specific binary that acts as a server
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for the incoming request, however they might also be the actual executable
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themselves. Qrexec framework is careful about connecting the stdin/stdout
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of the server process with the corresponding stdin/stdout of the requesting
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process in the requesting VM (see example Hello World service described below).
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## Qubes RPC administration ##
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Besides each VM needing to provide explicit programs to serve each supported
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service, the inter-VM service RPC is also governed by a central policy in Dom0.
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In dom0, there is a bunch of files in `/etc/qubes-rpc/policy/` directory,
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whose names describe the available RPC actions; their content is the RPC
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access policy database. Some example of the default services in Qubes are:
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```
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qubes.Filecopy
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qubes.OpenInVM
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qubes.ReceiveUpdates
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qubes.SyncAppMenus
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qubes.VMShell
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qubes.ClipboardPaste
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qubes.Gpg
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qubes.NotifyUpdates
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qubes.PdfConvert
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```
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These files contain lines with the following format:
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```
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srcvm destvm (allow|deny|ask)[,user=user_to_run_as][,target=VM_to_redirect_to]
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```
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You can specify `srcvm` and `destvm` by name, or by one of `$anyvm`,
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`$dispvm`, `dom0` reserved keywords (note string `dom0` does not match the
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`$anyvm` pattern; all other names do). Only `$anyvm` keyword makes sense
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in the `srcvm` field (service calls from dom0 are currently always allowed,
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`$dispvm` means "new VM created for this particular request" - so it is never
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a source of request). Currently, there is no way to specify source VM by type,
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but this is planned for Qubes R3.
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Whenever a RPC request for service named "XYZ" is received, the first line
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in `/etc/qubes-rpc/policy/XYZ` that matches the actual `srcvm`/`destvm` is
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consulted to determine whether to allow RPC, what user account the program
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should run in target VM under, and what VM to redirect the execution to. If
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the policy file does not exist, user is prompted to create one *manually*;
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if still there is no policy file after prompting, the action is denied.
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On the target VM, the `/etc/qubes-rpc/XYZ` must exist, containing the file
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name of the program that will be invoked.
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### Requesting VM-VM (and VM-Dom0) services execution ###
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In a src VM, one should invoke the qrexec client via the following command:
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```
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/usr/lib/qubes/qrexec-client-vm <target vm name> <service name> <local program path> [local program arguments]
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```
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Note that only stdin/stdout is passed between RPC server and client --
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notably, no cmdline argument are passed.
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The source VM name can be accessed in the server process via
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`QREXEC_REMOTE_DOMAIN` environment variable. (Note the source VM has *no*
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control over the name provided in this variable--the name of the VM is
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provided by dom0, and so is trusted.)
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By default, stderr of client and server is logged to respective
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`/var/log/qubes/qrexec.XID` files, in each of the VM.
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Be very careful when coding and adding a new RPC service! Any vulnerability
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in a RPC server can be fatal to security of the target VM!
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If requesting VM-VM (and VM-Dom0) services execution *without cmdline helper*,
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connect directly to `/var/run/qubes/qrexec-agent-fdpass` socket as described
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[below](#all-the-pieces-together-at-work).
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### Revoking "Yes to All" authorization ###
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Qubes RPC policy supports an "ask" action, that will prompt the user whether
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a given RPC call should be allowed. It is set as default for services such
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as inter-VM file copy. A prompt window launches in dom0, that gives the user
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option to click "Yes to All", which allows the action and adds a new entry
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to the policy file, which will unconditionally allow further calls for given
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(service, srcVM, dstVM) tuple.
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In order to remove such authorization, issue this command from a Dom0 terminal
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(example below for `qubes.Filecopy` service):
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```shell_session
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sudo nano /etc/qubes-rpc/policy/qubes.Filecopy
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```
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and then remove any line(s) ending in "allow" (before the first `##` comment)
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which are the "Yes to All" results.
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A user might also want to set their own policies in this section. This may
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mostly serve to prevent the user from mistakenly copying files or text from
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a trusted to untrusted domain, or vice-versa.
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### Qubes RPC "Hello World" service ###
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We will show the necessary files to create a simple RPC call that adds two
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integers on the target VM and returns back the result to the invoking VM.
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* Client code on source VM (`/usr/bin/our_test_add_client`)
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```bash
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#!/bin/sh
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echo $1 $2 # pass data to rpc server
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exec cat >&$SAVED_FD_1 # print result to the original stdout, not to the other rpc endpoint
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```
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* Server code on target VM (`/usr/bin/our_test_add_server`)
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```bash
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#!/bin/sh
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read arg1 arg2 # read from stdin, which is received from the rpc client
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echo $(($arg1+$arg2)) # print to stdout - so, pass to the rpc client
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```
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* Policy file in dom0 (`/etc/qubes-rpc/policy/test.Add`)
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```shell_session
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$anyvm $anyvm ask
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```
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* Server path definition on target VM (`/etc/qubes-rpc/test.Add`)
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```
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/usr/bin/our_test_add_server
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```
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* To test this service, run the following in the source VM:
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```
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/usr/lib/qubes/qrexec-client-vm <target VM> test.Add /usr/bin/our_test_add_client 1 2
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```
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and we should get "3" as answer, provided dom0 policy allows the call to pass
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through, which would happen after we click "Yes" in the popup that should
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appear after the invocation of this command. If we changed the policy from
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"ask" to "allow", then no popup should be presented, and the call will always
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be allowed.
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**Note:** For a real world example of writing a qrexec service, see this
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[blog post](https://blog.invisiblethings.org/2013/02/21/converting-untrusted-pdfs-into-trusted.html).
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### More high-level RPCs? ###
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As previously noted, Qubes aims to provide mechanisms that are very simple
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and thus with very small attack surface. This is the reason why the inter-VM
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RPC framework is very primitive and doesn't include any serialization or
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other function arguments passing, etc. We should remember, however, that
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users/app developers are always free to run more high-level RPC protocols on
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top of qrexec. Care should be taken, however, to consider potential attack
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surfaces that are exposed to untrusted or less trusted VMs in that case.
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# Qubes RPC internals #
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(*This is about the implementation of qrexec v2. For the implementation of
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qrexec v3, see [here](/doc/qrexec-internals/). Note that the user
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API in v3 is backward compatible: qrexec apps written for Qubes R2 should
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run without modification on Qubes R3.*)
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## Dom0 tools implementation ##
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Players:
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* `/usr/lib/qubes/qrexec-daemon`: started by mgmt stack (qubes.py) when a
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VM is started.
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* `/usr/lib/qubes/qrexec-policy`: internal program used to evaluate the
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policy file and making the 2nd half of the connection.
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* `/usr/lib/qubes/qrexec-client`: raw command line tool that talks to the
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daemon via unix socket (`/var/run/qubes/qrexec.XID`)
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**Note:** None of the above tools are designed to be used by users.
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## Linux VMs implementation ##
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Players:
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* `/usr/lib/qubes/qrexec-agent`: started by VM bootup scripts, a daemon.
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* `/usr/lib/qubes/qubes-rpc-multiplexer`: executes the actual service program,
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as specified in VM's `/etc/qubes-rpc/qubes.XYZ`.
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* `/usr/lib/qubes/qrexec-client-vm`: raw command line tool that talks to
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the agent.
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**Note:** None of the above tools are designed to be used by
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users. `qrexec-client-vm` is designed to be wrapped up by Qubes apps.
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## Windows VMs implementation ##
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`%QUBES_DIR%` is the installation path (`c:\Program Files\Invisible Things
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Lab\Qubes OS Windows Tools` by default).
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* `%QUBES_DIR%\bin\qrexec-agent.exe`: runs as a system service. Responsible
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both for raw command execution and interpreting RPC service requests.
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* `%QUBES_DIR%\qubes-rpc`: directory with `qubes.XYZ` files that contain
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commands for executing RPC services. Binaries for the services are contained
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in `%QUBES_DIR%\qubes-rpc-services`.
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* `%QUBES_DIR%\bin\qrexec-client-vm`: raw command line tool that talks to
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the agent.
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**Note:** None of the above tools are designed to be used by
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users. `qrexec-client-vm` is designed to be wrapped up by Qubes apps.
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## All the pieces together at work ##
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**Note:** This section is not needed to use qrexec for writing Qubes
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apps. Also note the [qrexec framework implemention in Qubes R3](/doc/qrexec3/)
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significantly differs from what is described in this section.
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The VM-VM channels in Qubes R2 are made via "gluing" two VM-Dom0 and Dom0-VM
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vchan connections:
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![qrexec2-internals.png](/attachment/doc/qrexec2-internals.png)
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Note that Dom0 never examines the actual data flowing in neither of the two
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vchan connections.
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When a user in a source VM executes `qrexec-client-vm` utility, the following
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steps are taken:
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* `qrexec-client-vm` connects to `qrexec-agent`'s
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`/var/run/qubes/qrexec-agent-fdpass` unix socket 3 times. Reads 4 bytes from
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each of them, which is the fd number of the accepted socket in agent. These
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3 integers, in text, concatenated, form "connection identifier" (CID)
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* `qrexec-client-vm` writes to `/var/run/qubes/qrexec-agent` fifo a blob,
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consisting of target vmname, rpc action, and CID
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* `qrexec-client-vm` executes the rpc client, passing the above mentioned
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unix sockets as process stdin/stdout, and optionally stderr (if the
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`PASS_LOCAL_STDERR` env variable is set)
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* `qrexec-agent` passes the blob to `qrexec-daemon`, via
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`MSG_AGENT_TO_SERVER_TRIGGER_CONNECT_EXISTING` message over vchan
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* `qrexec-daemon` executes `qrexec-policy`, passing source vmname, target
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vmname, rpc action, and CID as cmdline arguments
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* `qrexec-policy` evaluates the policy file. If successful, creates a pair of
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`qrexec-client` processes, whose stdin/stdout are cross-connected.
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* The first `qrexec-client` connects to the src VM, using the `-c ClientID`
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parameter, which results in not creating a new process, but connecting to
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the existing process file descriptors (these are the fds of unix socket
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created in step 1).
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* The second `qrexec-client` connects to the target VM, and executes
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`qubes-rpc-multiplexer` command there with the rpc action as the cmdline
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argument. Finally, `qubes-rpc-multiplexer` executes the correct rpc server
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on the target.
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* In the above step, if the target VM is `$dispvm`, the DispVM is created
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via the `qfile-daemon-dvm` program. The latter waits for the `qrexec-client`
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process to exit, and then destroys the DispVM.
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*TODO: Protocol description ("wire-level" spec)*
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